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SEISMIC CYCLE

• Elastic accumulation and rupture on a fault. Exemple on a Strike-slip fault and a Subduction fault

• Size of an earthquake

• Time dependent station motion and earthquake cycle : READ and Wallace models

• Pre-seismic, co-seismic and post-seismic motions

• Triggering of earthquake

• Precursors ?

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Arctang profiles Uy = 2.V0 / Π arctang (x/h)

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Elastic accumulation and rupture

earthquake Keep goingearthquake

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Seismic cycle in subduction context

100s years

seconds -> minutes

months- -> years

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Size of an Earthquake

Earthquake « size » or released Energy E, is proportional to :

- Quantity of slip (U)

- Size of ruptured surface (S)

- Length of rupure (L) x Locking depth of fault (d)

=> E = µ x S x U = µ x L x d x V x ∆t

Magnitude of an Earthquake :

M = Log (E)

- fault velocity (V) x time between earthquakes ∆t

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Time & space dependant station motion

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Earthquake cycle : Read and Wallace models

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Difficulty of earthquake prediction

Even though a given fault can have a characteristic Earthquake repeating itself over a characteristic time, earthquake prediction is difficult because :

1. Those values can be unknown, especially if the characteristic time is very long

2. The earthquakes may occur at recurrence time interval, plus or minus many decades (or centuries)

3. Physical and/or rheological conditions may change with time and in particular affected by earthquakes themselves

a. time of latest event

b. Current velocity on fault

c. Locking depth of fault

Only lower bound of future Earthquake magnitude can be given, assuming :

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Guttenberg-Richter Law

A fault of given length will give an earthquake of given magnitude

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Zooming around earthquakes

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Post-seismic : K. HEKI, Nature 1997

Silent fault slip following an interplate thrust earthquake at the Japan trench

Horizontal coordinate time series before and after the 1994 Sanriku-haruka-Oki earthquake observed at three GPS stations : Mutsu, Aomoriand and Kuji. Dots denote north and east components. Black lines are the model curves (stationary for t < 0, logarithmic decay for t > 0, discontinuity for t= 0).

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Sanriku-Haruka-Oki sequence

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20+ years of Post seismic in Afar Rift

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20+ years of Post seismic in Afar Rift

Present day velocity : +6.1 mm/yr

Far field velocity : +11 mm/yr

Accumulation : ~5 mm/yr

=> Next crisis in 300 years ?

Co-seismic (in 1979) =1.5 m

Viscous relaxation = 50 cm

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Triggering of earthquakes : Vigny et al. JGR 2002

Start :

Mw 7.9 01/01/1996

1st phase :

eastward propagation (2 years) along Minahassa trench

2nd phase :

Southward propagation on Palu fault

3rd phase :

Earthquakes around Sula and Luwuck

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Surface deformation on Palu Transect

Along strike comp. has been anomalous twice: - April 96 meas.- December 96 meas.The rate is stable since October 97

Normal component has been anomalous :-December 96-October 97The rate is stable since october 98

The 2 earthquakes happened after the rates returned to normal

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Coulomb stress increase

Coulomb Stress generated in North Sulawesi by the 01/01/96 earthquake

Stress is increased by at least 1 bar (red area) almost to Palu

The 2 « Palu fault »earthquakes occur in the area of significant stress increase

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Shear stress on fault plane is increased => slip on fault

Normal stress on fault is decreased =>unclamping of fault

Coulomb Stress on Palu fault plane generated by 96 1st Eq

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Silent slip on Cascadian subduction zoneDragert et al., Science, 292, May 2001

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Jump in time series

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Silent slip on subduction interface

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Maps of the estimated slip-rate as a function of time and station distribution (black triangles).

McGuire and Segall, G.J.Int. ,2003.

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Ruegg et al., 2001, seismological research letters

Towards detection of preseismic motion

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Co- and post-seismic in Papua – New GuineaTregoning, 2002, unpublished

PNG Co-seismic displacements Co- and post-seismic motion of Rabaul

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Kinematic positioning during the earthquake

From coseismic jump … …to kinematic measurement of position during the earthquake

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Assessing Fault plane slipZ. Cakir PhD thesis, IPGP, Paris, France, 2003